Why Is Graphene Oxide Used In Shots?
What Does Graphene Oxide Do?
What Activates It?
Lynn Schmaltz reads a document she prepared from the English subtitles on a Spanish language video with researchers discussing graphene oxide, 5G and cell damage. This is the link to her video:
GRAPHENE MULTIPLIES FREQUENCIES AND DAMAGES CELLS WHEN EXPOSED TO EMF
Following is a link to the Spanish language video with Ricardo Delgado Bioedstadistico and Jose Luis Sevillano discussing graphene oxide, 5G and cell damage:
Ricardo Delgado Bioedstadistico, Joe L Sevillano are having the following exchange. Later in the document notetaker identifies the speakers.
This doctor told me that he had been treating many patients with chlorine dioxide, but in secret since it hasn’t been approved in Panama yet, not as has happened in Bolivia or Ecuador. And he told me that he has had very positive results with the other mechanism talked about previously (cell oxygenation). And he has treated patients with hydroxychloroquine and ivermectin. Then he realized that when, in addition, they administered zinc, well it was like the element that made people recover.
I’m sure that all that has to do with what was said by this man whose article –which I don’t know if we’re going to talk about today—mentions the ability of the graphene molecule to inject electrons depending on the electromagnetic environment and temperature. Of course, if you have a molecule that’s an electron injector, as soon as you activate it, it starts throwing charges wherever it goes. You charge the molecules, and if the molecules are saturated with a charge that they shouldn’t, then they’re destroyed. They break down.
If you get a molecule like zinc, which has, I think, two positive charges, it’ll be neutralized. The electron acceptor is the zinc, which is going to be neutralized. It’s going to stop being a positive molecule, and it’s going to transform, it’s going to be neutralized. It’ll cease to have the capacity to accept electrons, but another one will come to take its place and continue to accept them.
So after a while, 2, 3 or more zinc molecules that pass around the graphene oxide molecule will end up emptying electrons. That will be a graphene oxide incapable of ejecting electrons. It’s neutralized. But you need an electron acceptor because, as long as the graphene is ejecting electrons, if there’s nothing in the middle, there’s be damage.
So what gets in the middle? Our reducing agents, which are the ones that pick up that injection of electrons that the graphene molecule is sending out. And that for sure happens at certain frequencies. Without those frequencies, temperatures and environments graphene is probably relatively tolerable, from the point of view of the physical-chemical action it has on the organism.
Yes, I’m almost convinced that the people who have had more problems after vaccination are people who live near or reside near 5G antennas.
I think so too.
They are exposed to frequency harmonics.
Sure. Not that some of those frequencies are good. But some people are so close to them that they’re already starting to be affected.
And that’s why it doesn’t happen to every vaccinee. Some of them laugh. “Haha’ I laugh. My parents are fine and so am I.”
Wait a bit. Or wait until you pass where you shouldn’t because we have a suspicion that you have graphene in your body.
Ricardo: Hospitals usually have 5G antennas.
Jose: That’s right. So when there’s some weird power up again, the graphene oxide may activate and start injecting electrons into anything surrounding it, anything that comes near it. All it takes is for the graphene to stick to a cell or others cells and start ejecting electrons. And of course, molecules, cells, organisms in general, have a limited capacity to react to that kind of scenario. And if all the zinc is consumed, as we said, you lose the sense of taste and smell. By consumption, to neutralize the graphene you run out of useful zinc and start to have sequelae (definition: a sequel; any condition or state that follows a disease, disorder or injury, especially one that is a consequence of it) because of that.
Ricardo: like erectile dysfunction. We talked about that yesterday.
Jose: Yes. It might be due to zinc deficiency, but there are certainly other things that have to do with the persistent fashionable disease. It’s just that graphene molecules don’t deactivate. You have them in your body, and 5G antennas are not far away. And that’s a persistent intoxication. As long as there is electron acceptance and emission, the disease is latent. Inflammation is present, and there is destruction. There is damage.
Ricardo: We now enter the next block of the program to talk about what we commented on previously: graphene and the magnetic resonance it has concerning electromagnetic waves. First there is a news items that says: “Graphene reveals hidden frequencies of the electromagnetic spectrum. (Photos at 4.21 minutes). A graphene-based frequency amplifier will allow the elusive terahertz wavelengths to be harnessed for communications enabling revolutionary technologies. Terahertz (THz) waves lie between microwave and infrared in the light frequency spectrum but due to their low energy, scientists have been unable to harness their potential. This enigma is known in scientific circles as the terahertz gap. THz are above GHz and are already close to infrared radiation. In fact, it is called T-rays. It would open up a new era of medical, satellite communications, cosmological and other technologies. One of the most important applications would be a safe, non-destructive alternative to X-rays. That is, not as ionizing in principle, but it could also …
Jose: They are potent.
Ricardo: that’s right. However, until now, wavelengths ranging from 3 millimeters to 30 picometers have proved impossible to use because of the relatively weak signals from all existing sources. A team of physicists has created a new type of optical transistor that functions as a THz amplifier using graphene and a high=temperature semi-conductor. The physics behind the amplifier answers the properties of graphene. What are they? That it’s transparent. Mr. Diego Pena. We’re going to remind him and Ana Pastor today it’s transparent. Graphene is transparent. When you say it’s black, it’s when a sheet of graphene is stacked on top of another and another and another, as seen under a microscope. And it’s not sensitive to light and its electrons have no mass. It consists of two layers of graphene and a superconductor, which traps the massless electrons of graphene between them, like a sandwich. Then it says: When the THz radiation hits the outer layer of graphene, the particles trapped inside join the outgoing waves giving them more power and energy than (when) they arrived amplifying them. That is to say, Jose Luis, that graphene receives the signal from an electromagnetic field and multiplies it. Let’s say with more power and more energy, it amplifies it. This is what we get from here in principle. It says, “The THz photons—the THz microwave electromagnetic field—are transformed by the graphene and massless electrons which in turn are transformed back into reflected and energized THz photons.” So what we do is to increase the number of electrons, as I understand it, and with that we could oxidize faster. Can it be or am I overthinking this?
Jose: No, no. What is says is that it multiplies energies, frequencies, range of energies. And then it mentions photons and massless electrons. In other words, what it’s telling you is that the energy that gets there is multiplied by 1,000 or I don’t know how much. So you know that the signal is multiplied by 1,000 or any other number. By ‘signal’ he means that it reaches certain energy and this multiplies it by 1,000 for example. But, of course, what does it mean? What energy does it release? Electrons and mass are not photons. Instead of having electric charges, light is what is emitted. But whether it’s light or something else, the light is picked up by other molecules in front of it or nearby. Do you understand? It’s dematerialized energy…if you can call it ‘matter.’—but it’s another kind of energy that’s going to be absorbed by those structures that are close which is going to cause them to be destroyed when there are electron jumps to orbital changes. That’s what this guy was saying. You’re injecting electrons, you’re injecting energy into the molecules in proximity. And how do you do all that? By receiving external signals. There are changes in the electromagnetic field that cause the graphene molecule to start emitting in certain directions or all directions. Electrons charges. Whether they’re photonic, whether they’re of luminous energy, whether they are electrical charges that jump and go looking for what to associate with, so to speak. That is, you generate an energy imbalance virtually. That is, it is like a punch, there is no virus, nor is there anything material to which it can be directly directed. You are introducing energy that is multiplied by 1,000 in the same place only with a wave that comes from any point of emission. And all that can cause what we have already said: that you can go walking down the street calmly with your graphene in your body – that nothing happens to you yet because your body more or less accepts it—but when that signal comes…Goodbye. Goodbye because you carry the mark inside you, you carry the time bomb in your body. And when someone sets it off, you hit the primer and fall ill without delay. Because when the graphene starts to eject electrons everywhere, it starts to destroy your molecular structure at the cellular level.
Ricardo: Exactly. What we don’t know exactly what the band is. But well, if it’s from a weak emission, what we do is amplify it.
Jose: we know where the signals that emit in that range are, so it is not a particularly difficult range to deduce. If that emits signals in that range, it means that it receives it as well.
Ricardo: Also, the 5G goes from 0 to 300 GHz. That’s the widest bandwidth ever done.
Jose: Probably, in that bandwidth is included the one we’re referring to. It’s almost certainly. And I could be wrong—correct me since I’m not an expert in these things, but I’m almost sure that this bandwidth integrates this one in which graphene can emit energy. And it can emit it, it can receive it. And if it receives it, it sends it back multiplied.
Ricardo: there is yet another article to see.
Jose: sorry, Ricardo, not to mention that maybe with lower energies, it can also multiply them. Not only to a precise range but to others. It can ‘play’ with them and accept them. We don’t know what capacity it has to accept frequencies. We also do not know. That is why it is interesting to know that graphene usually works in the THz range. But we don’t know if it would accept other ranges, and if it does other types of conversions. That is, in the THz range it multiplies the energy by a thousand times. Perhaps in lower or higher ranges it does it more or less, but it also plays with those emissions. And it’s possible.
An email sent by Lynn:
This is very important.
These notes were the English subtitles on a video from Ricardo Delgado and Jose L Sevillano. The video was posted on Brighteon in an article and I made the attached notes from the English subtitles.
PS…think back to Wuhan:
I remember a video with someone walking down the street talking on a cell phone and he drops to the ground. I also remember articles that say in the fall of 2019 the flu shot was mandated for all. The indications today are that the graphene is in the vial of liquid.
If jabs are prepared like vaccines were back in the day of my husband Paul’s veterinary clinics, there are two vials–one has the powdered ingredients of the ‘vaccine’ and the other is the liquid that is injected into the vial of powder to reconstitute it into a liquid for the injection. This is done because back in the day the ingredients would degrade if left sitting in the reconstituted form for too long a period. The recent articles are stating that the graphene is in the vial of liquid.
See the following video from Stew Peters and Dr. Jane Ruby on the research from a physician in the UK with his photos taken while under a microscope.
These are images taken from the blood taken from his patients who have taken the injection. This confirms the report from the Spanish researchers, La Quinta Columna on the graphene oxide. These dangerous shots are being pushed as ‘vaccines’. There is something very wrong with the blood samples. The blood looks poisoned and the red blood cells are distorted and clumped. They cannot carry oxygen to the cells in this damaged state. This is why people are feeling fatigued.